2016-12-07
Arnold Berstad: Tryptophan - an enigmatic essential amino acid in health and disease
source: karolinskainstitutet 2016年11月14日
The Food and the Mood Symposium, October 17, 2016
Wallenberg lecture hall, Nobel Forum, Karolinska Institutet
Håvard Bentsen: Dietary Polyunsaturated Fatty Acids, Brain Function and Mental Health
source: karolinskainstitutet 2016年11月14日
The Food and the Mood Symposium, October 17, 2016
Wallenberg lecture hall, Nobel Forum, Karolinska Institutet
Introduction and lecture Jan Raa
source: karolinskainstitutet 2016年11月14日
The Food and the Mood Symposium, October 17, 2016
Wallenberg lecture hall, Nobel Forum, Karolinska Institutet
I Ernberg group - Lovisa Martin Marias: FIBFLO: A dietary beta-glucan study (A learning lesson)
source: karolinskainstitutet 2016年11月14日
The Food and the Mood Symposium, October 17, 2016
Wallenberg lecture hall, Nobel Forum, Karolinska Institutet
Gödel's Incompleteness Theorems (BBC's In Our Time)
source: Philosophical Overdose 2016年11月2日
In 1900, in Paris, the International Congress of Mathematicians gathered in a mood of hope and fear. The edifice of maths was grand and ornate but its foundations had been shaken. They were deemed to be inconsistent and possibly paradoxical. At the conference, a young man called David Hilbert set out a plan to rebuild the foundations of maths – to make them consistent, all encompassing and without any hint of a paradox. Hilbert was one of the greatest mathematicians that ever lived, but his plan failed spectacularly because of Kurt Gödel. Gödel proved that there were some problems in maths that were impossible to solve, that the bright clear plain of mathematics was in fact a labyrinth filled with potential paradox. In doing so, Gödel changed the way we understand what mathematics is, and the implications of his work in physics and philosophy take us to the very edge of what we can know. Melvyn Bragg discusses Gödel’s Incompleteness Theorems with Marcus du Sautoy, Professor of Mathematics at Wadham College, University of Oxford; John Barrow, Professor of Mathematical Sciences at the University of Cambridge and Gresham Professor of Geometry and Philip Welch, Professor of Mathematical Logic at the University of Bristol.
This is from a BBC program called In Our Time.
Understanding Zarathustra with Jason Reza Jorjani
source: New Thinking Allowed 2016年11月3日
Jason Reza Jorjani is a philosopher and faculty member at the New Jersey Institute of Technology. He is author of Prometheus and Atlas.
Here he points out that, while most people are unfamiliar with the details of Zarathustra’s teachings, they were influential on such important European figures as Voltaire, Nietzsche, and Mozart. Unlike other ancient thinkers, Zarathustra emphasized the progressive evolution of human toward a utopian society. His emphasis on the importance of truth became an essential element incorporated into Greek philosophy. He also emphasized respect for women and the importance of ecology. His teachings exerted an influence on the Islamic Sufism of Iran as well as on the rise of Christianity.
New Thinking Allowed host, Jeffrey Mishlove, PhD, is author of The Roots of Consciousness, Psi Development Systems, and The PK Man. Between 1986 and 2002 he hosted and co-produced the original Thinking Allowed public television series. He is the recipient of the only doctoral diploma in "parapsychology" ever awarded by an accredited university (University of California, Berkeley, 1980). He is a past vice-president of the Association for Humanistic Psychology; and is the recipient of the Pathfinder Award from that Association for his contributions to the field of human consciousness exploration. He is also past-president of the non-profit Intuition Network, an organization dedicated to creating a world in which all people are encouraged to cultivate and apply their inner, intuitive abilities.
(Recorded on June 25, 2016)
Katherine Angel: When is the past in Female Sexual Dysfunction?
source: SchAdvStudy 2016年11月16日
04-10-2016 Institute of Historical Research (Kingston University)
http://www.sas.ac.uk/
Institute: http://www.history.ac.uk
In this talk I will reflect on an increasing convergence between recent changes in the classification of women's sexual problems in the American Psychiatric Association's Diagnostic and Statistical Manual (the DSM), and feminist critiques of that DSM. Both have tended towards a naturalization of low desire in women; in the manual, an erasure of a diagnosis of low desire in women has taken place, reflecting a sense of low desire as definitional in women. I will draw out what these phenomena, and the emphasis in the manual on female sexuality as responsive, might tell us about how the pasts of both psychiatry and feminism are conceived with the contemporary debate, paying particular attention to the fraught status of unconscious symptoms as well as anxieties the sexualisation of culture.
History of Sexuality seminar series
Is there a reproducibility crisis in science? - Matt Anticole
source: TED-Ed 2016年12月5日
View full lesson: http://ed.ted.com/lessons/is-there-a-...
Published scientific studies can motivate research, inspire products, and inform policy. However, recent studies that examined dozens of published pharmaceutical papers managed to replicate the results of less than 25% of them — and similar results have been found in other scientific disciplines. How do we combat this crisis of scientific irreproducibility? Matt Anticole investigates.
Lesson by Matt Anticole, animation by Brett Underhill.
探索16-5講座:燒錄「命孕交響曲.mp3」的生殖細胞 / 張俊哲教授
source: 臺大科學教育發展中心 2016年12月2日
「我為何而生?」─ 這個問題已困擾人類或被忽視長達數千年。但您或許不知道,這個問題的主角 ─ 「生殖細胞」, 不因您的困惑未解與不理不睬,在您還是一顆細胞的狀態即做好準備,乘載面對人生挑戰所需的指令,譜出每個人命運交響曲的第一樂章。然而並非所有的細胞都能擔當如此重責大任,生殖細胞的發育需賴「天時」(對的發育時機)、「地利」(對的場合)、「人和 」(遇到對的分子訊息)方能畢其功於一役。如果你喜歡探討細胞的命運,請不要錯過「生殖細胞」的解密。
講座時間:2016年11月12日(六) 14:00
講座地點:臺灣大學思亮館國際會議廳(同步網路直播)
活動官網:http://case.ntu.edu.tw/ex/embryos/
粉絲專頁:https://www.facebook.com/CASExplores
Enlightenment Lectures (at the University of Edinburgh: 2008-2015)
# click the up-left corner to select videos from the playlist
source: The University of Edinburgh 上次更新日期:2015年12月1日
Global leaders in politics, philosophy, science and economics examine aspects of the Enlightenment's legacy in the context of our own fraught and hectic times.
Julia Marton-Lefèvre - The Promise of 2015: Hopes for a New Environmental Enlightenment 1:17:23
Prof. Sir John Beddington - Legacies of the 20th Century and Challenges for the 21st 1:16:04
Prof. Lord Robert Winston - Medicine, Ethics and Society 1:08:57
Prof. Mary Robinson - Human Rights in the Modern World 1:07:13
Prof. Stefan Collini - From Belles-Lettres to Eng-Lit: Criticism and its Publics 1:16:17
Prof. Aubrey Manning - Population: Can We Begin to Talk Sensibly? 1:25:22
Prof. Amartya Sen - David Hume and the Demands of Ethics 1:25:18
Jon Snow - A changing media in a changing world 1:08:45
Steve Jones Enlightenment Lecture - Is Human Evolution Over?' 1:15:33
Prof. Joseph Stiglitz: Globalisation and the 21st Century Enlightenment 1:07:21
Irene Khan: The War on Terror, A War on Liberty? 59:27
Prof. Daniel Dennett: Is Science Showing That We Don't Have Free Will? 1:23:38
source: The University of Edinburgh 上次更新日期:2015年12月1日
Global leaders in politics, philosophy, science and economics examine aspects of the Enlightenment's legacy in the context of our own fraught and hectic times.
Julia Marton-Lefèvre - The Promise of 2015: Hopes for a New Environmental Enlightenment 1:17:23
Prof. Sir John Beddington - Legacies of the 20th Century and Challenges for the 21st 1:16:04
Prof. Lord Robert Winston - Medicine, Ethics and Society 1:08:57
Prof. Mary Robinson - Human Rights in the Modern World 1:07:13
Prof. Stefan Collini - From Belles-Lettres to Eng-Lit: Criticism and its Publics 1:16:17
Prof. Aubrey Manning - Population: Can We Begin to Talk Sensibly? 1:25:22
Prof. Amartya Sen - David Hume and the Demands of Ethics 1:25:18
Jon Snow - A changing media in a changing world 1:08:45
Steve Jones Enlightenment Lecture - Is Human Evolution Over?' 1:15:33
Prof. Joseph Stiglitz: Globalisation and the 21st Century Enlightenment 1:07:21
Irene Khan: The War on Terror, A War on Liberty? 59:27
Prof. Daniel Dennett: Is Science Showing That We Don't Have Free Will? 1:23:38
The lifelong benefits of reading for pleasure - Dr Alice Sullivan - UCL Lunch Hour Lectures
source: UCL Lunch Hour Lectures 2016年10月31日
Speaker: Professor Alice Sullivan, UCL Institute of Education
- Tuesday 25th October 2016 #ucllhl
Bring your lunch and your curiosity! UCL Lunch Hour Lectures, Tuesdays and Thursdays, Darwin Lecture Theatre, 1.15 - 1.55pm (term time)
Drawing on a nationally representative longitudinal study of more than 17,000 people born in Britain in 1970 (the 1970 British Cohort Study), Professor Alice Sullivan will explore the positive influence of reading for pleasure on learning during the teenage years and into mid-life.
Free to attend, live stream or watch online
More info: http://events.ucl.ac.uk/lhl
Join the conversation on Twitter at #UCLLHL
Rouse Visiting Artist Lecture: Christo
source: Harvard GSD 2016年11月1日
Christo and Jeanne-Claude met in Paris in 1958, not long after their education at the National Academy of Art in Bulgaria and the University of Tunis, respectively. Their first project was Stacked Oil Barrels and Dockside Packages (1961) in Cologne Harbor, but perhaps their most renowned project was Wrapped Reichstag (1995) in Berlin, which swathed the iconic capital building in fabric for fourteen days. Christo and Jeanne-Claude’s overt, site-specific landscape interventions have evolved from Christo’s early works. Smaller sculptural pieces that are key to his portfolio, such as wrapped cans, bottles, crates, suggestive forms, and indoor installations reveal an interest in concealment, but also in the dimensional qualities of shapes in an environment and in the process itself. It is no surprise that in a caption to a chronological list of projects on their website, the artists refer to “software” and “hardware” periods: preparation and imagination on the one hand, physical execution on the other. The Floating Piers, Christo and Jeanne-Claude’s most recent finished work, was conceived in 1970 yet came to fruition only in the summer of 2016. The 16-meter-wide shimmering walkways of this project, constructed on Lake Iseo, Italy, were open and free for the public to traverse. Christo will discuss this work in his lecture, along with two upcoming projects: Over the River, for the Arkansas River in Colorado, and The Mastaba, for the United Arab Emirates. Both were planned with his wife and partner Jeanne-Claude. Notwithstanding her death in 2009, Christo continues to fundamentally credit Jeanne-Claude in his projects.
Garnet Chan: Simulating the Quantum World on a Classical Computer
source: GoogleTechTalks 2016年11月10日
A Google TechTalk, 10/6/16, presented by Garnet Chan
ABSTRACT: Quantum mechanics is the fundamental theory underlying all of chemistry, materials science, and the biological world, yet solving the equations appears to be an exponentially hard problem. Is there hope to simulate the quantum world using classical computers? I will discuss why simulating quantum mechanics is not usually as hard as it first appears, and give some examples of how modern day quantum mechanical calculations are changing our understanding of practical chemistry and materials science.
Speaker Bio:
Garnet Chan recently joined the Cal Tech faculty as the Bren Professor in Chemistry. Before that he was the A. Barton Hepburn Professor of Chemistry at Princeton University, where he was also a member of the physics faculty. Professor Chan received his PhD from the University of Cambridge in 2000. He was born in London and grew up in Hong Kong. Professor Chan's research lies at the interface of theoretical chemistry, condensed matter physics, and quantum information theory, and is concerned with quantum many-particle phenomena and the numerical methods to simulate them. Over the last decade, his group has contributed to and invented a variety of methods addressing different aspects of quantum simulations, ranging from the challenges of strong electron correlation, to treating many-particle problems in the condensed phase, to dynamical simulations of spectra and coupling between electron and nuclear degrees of freedom. Some of these methods include density matrix renormalization and tensor network algorithms for real materials, canonical transformation-based down-foldings, local quantum chemistry methods, quantum embeddings including dynamical mean-field theory and density matrix embedding theory, and new quantum Monte Carlo algorithms. The primary focus is on methodologies for problems which appear naively exponentially hard, but where an understanding of inherent physics, for example in terms of the entanglement structure, allows for calculations of polynomial cost.
David Bodanis: "Einstein's Greatest Mistake" | Talks at Google
source: Talks at Google 2016年11月3日
After writing the bestseller "E = mc²" about an equation that changed the world, our Talks at Google guest David Bodanis, a business advisor and writer with education in science and economics, went on to write about the man behind that equation.
Albert Einstein was a genius who redefined how we think about physics, but while researching how Einstein's creative process Bodanis uncovered his greatest mistake. In this talk he explains his reasoning, creative processes in general, and what we can learn today - scientists and businesses alike - from Einstein's big flaw.
Get the book here: https://goo.gl/LoId26
Circuits and Electronics (Spring 2007) by Anant Agarwal & Jeffrey H. Lang at MIT
# click the upper-left icon to select videos from the playlist
source: MIT OpenCourseWare 2008年1月16日
View the complete course: http://ocw.mit.edu/6-002S07
6.002 is designed to serve as a first course in an undergraduate electrical engineering (EE), or electrical engineering and computer science (EECS) curriculum. At MIT, 6.002 is in the core of department subjects required for all undergraduates in EECS.
The course introduces the fundamentals of the lumped circuit abstraction. Topics covered include: resistive elements and networks; independent and dependent sources; switches and MOS transistors; digital abstraction; amplifiers; energy storage elements; dynamics of first- and second-order networks; design in the time and frequency domains; and analog and digital circuits and applications. Design and lab exercises are also significant components of the course. 6.002 is worth 4 Engineering Design Points.
The 6.002 content was created collaboratively by Profs. Anant Agarwal and Jeffrey H. Lang.
The course uses the required textbook Foundations of Analog and Digital Electronic Circuits.
For lecture notes, study materials, and more courses, visit http://ocw.mit.edu
Lec 1 Introduction and Lumped Circuit Abstraction 41:10
Lec 2 Basic Circuit Analysis Method KVL and KCL Methods 49:10
Lec 3 Superposition, Théven and Norton 51:13
Lec 4 The Digital Abstraction 49:07
Lec 5 Inside the Digital Gate 51:08
Lec 6 Nonlinear Analysis 44:51
Lec 7 Incremental Analysis 50:12
Lec 8 Dependent Sources and Amplifiers 52:26
Lec 9 MOSFET Amplifier Large Signal Analysis pt1 50:34
Lec 9B MOSFET Amplifier Large Signal Analysis pt2 50:36
Lec 10 Amplifiers Small Signal Model 50:30
Lec 11 Small Signal Circuits 50:05
Lec 12 Capacitors and First Order Systems 49:12
Lec 13 Digital Circuit Speed 52:52
Lec 14 State and Memory 48:00
Lec 15 Second Order Systems pt1 50:12
Lec 15b Second Order Systems pt2 50:12
Lec 16 Sinusoidal Steady State 52:08
Lec 17 The Impedance Model 49:32
Lec 18 Filters 48:00
Lec 19 The Operational Amplifier Abstraction 52:32
Lec 20 Operational Amplifier Circuits 49:52
Lec 21 Op Amps Positive Feedback 51:14
Lec 22 Energy and Power 51:43
Lec 23 Energy, CMOS 40:12
Lec 25 Violating the Abstraction Barrier 46:38
source: MIT OpenCourseWare 2008年1月16日
View the complete course: http://ocw.mit.edu/6-002S07
6.002 is designed to serve as a first course in an undergraduate electrical engineering (EE), or electrical engineering and computer science (EECS) curriculum. At MIT, 6.002 is in the core of department subjects required for all undergraduates in EECS.
The course introduces the fundamentals of the lumped circuit abstraction. Topics covered include: resistive elements and networks; independent and dependent sources; switches and MOS transistors; digital abstraction; amplifiers; energy storage elements; dynamics of first- and second-order networks; design in the time and frequency domains; and analog and digital circuits and applications. Design and lab exercises are also significant components of the course. 6.002 is worth 4 Engineering Design Points.
The 6.002 content was created collaboratively by Profs. Anant Agarwal and Jeffrey H. Lang.
The course uses the required textbook Foundations of Analog and Digital Electronic Circuits.
For lecture notes, study materials, and more courses, visit http://ocw.mit.edu
Lec 1 Introduction and Lumped Circuit Abstraction 41:10
Lec 2 Basic Circuit Analysis Method KVL and KCL Methods 49:10
Lec 3 Superposition, Théven and Norton 51:13
Lec 4 The Digital Abstraction 49:07
Lec 5 Inside the Digital Gate 51:08
Lec 6 Nonlinear Analysis 44:51
Lec 7 Incremental Analysis 50:12
Lec 8 Dependent Sources and Amplifiers 52:26
Lec 9 MOSFET Amplifier Large Signal Analysis pt1 50:34
Lec 9B MOSFET Amplifier Large Signal Analysis pt2 50:36
Lec 10 Amplifiers Small Signal Model 50:30
Lec 11 Small Signal Circuits 50:05
Lec 12 Capacitors and First Order Systems 49:12
Lec 13 Digital Circuit Speed 52:52
Lec 14 State and Memory 48:00
Lec 15 Second Order Systems pt1 50:12
Lec 15b Second Order Systems pt2 50:12
Lec 16 Sinusoidal Steady State 52:08
Lec 17 The Impedance Model 49:32
Lec 18 Filters 48:00
Lec 19 The Operational Amplifier Abstraction 52:32
Lec 20 Operational Amplifier Circuits 49:52
Lec 21 Op Amps Positive Feedback 51:14
Lec 22 Energy and Power 51:43
Lec 23 Energy, CMOS 40:12
Lec 25 Violating the Abstraction Barrier 46:38
Data Mining Apps (Mini Lecture Series by Bart Baesens at the KU Leuven (University of Leuven), Belgium.
# click the up-left corner to select videos from the playlist
source: Bart Baesens 2013年11月25日
Mini Lecture: Social Network Analysis for Fraud Detection 33:52
Mini Lecture: Business Process Analytics in Practice 23:41
Mini Lecture: Churn Prediction: Analysis and Applications 32:19
Mini Lecture: Profit-driven Data Analytics: Classification Performance Measurement 25:01
Meet the Instructor - Bart Baesens 2:59
[Webinar] State of the Art Credit Risk Analytics | with Bart Baesens | #SuccessSeries 51:29
source: Bart Baesens 2013年11月25日
Mini Lecture: Social Network Analysis for Fraud Detection 33:52
Mini Lecture: Business Process Analytics in Practice 23:41
Mini Lecture: Churn Prediction: Analysis and Applications 32:19
Mini Lecture: Profit-driven Data Analytics: Classification Performance Measurement 25:01
Meet the Instructor - Bart Baesens 2:59
[Webinar] State of the Art Credit Risk Analytics | with Bart Baesens | #SuccessSeries 51:29
Strings 2013 (Sogang University)
# click the up-left corner to select videos from the playlist
source: GraduatePhysics 2014年3月22日
Talks held at the Sogang University, June 24-29, 2013.
Event website: http://strings2013.sogang.ac.kr/
John Schwarz - Introduction (Strings 2013) 49:04
Sergei Gukov - 4d-2d correspondence 35:00
Matthias Gaberdiel - Large N=4 holography 29:13
David Berman - M-theory and extended geometry 33:52
Jeff Harvey - Summary (Strings 2013) 28:31
Michael Douglas - Thoughts on (2,0) theory 26:21
Daniel Harlow - On the Quantum Complexity of Hawking Radiation 29:50
Mirjam Cvetic - Global F-Theory Compactifications with Higher Rank Abelian Symmetries 34:15
Sungjay Lee - S2 Partition Function and Applications 22:58
Shamit Kachru - Calabi-Yau Avatars of Mathieu Moonshine 31:13
Romulad Janik - Fluid/gravity duality and hydrodynamics at its limits 28:23
Andrei Linde - Supeconformal Symmetry and Cosmological Attractors 28:38
Greg Landsberg - The LHC: Past, Present, and Future 32:31
Zohar Komargodski - Aspects of Supersymmetry on Curved Spaces 27:01
Seok Kim - The M5-brane superconformal index 29:24
Daniel Jafferis - Complex Chern-Simons from M5 branes on the squashed sphere 28:58
Gary Horowitz - General Relativity and the Cuprates 35:07
Guillaume Patanchon - Cosmological results from the Planck satellite 30:40
Sara Pasquetti - 3d&5d partition functions as q-CFT correlators 33:20
David Morrison - Gromov-Witten invariants without mirror symmetry 34:51
Gregory Moore - BPS News(Half)Hour 31:34
Jan Manschot - BPS bound states and quivers 26:29
Ashoke Sen - String theory at finite coupling 35:43
Eva Silverstein - New de Sitter solutions 24:33
Juan Maldacena - Wormholes and entangled states 36:22
Nathan Seiberg - Reading between the lines of 4d gauge theories 40:55
Slava Rychkov - Bootstrap approach to CFT in D dimensions 34:52
David Skinner - Twistor Strings for N=8 Supergravity 30:23
Tadashi Takayanagi - Holographic Entanglement Entropy of Excited States 27:18
Andrew Strominger - Asymptotic Symmetries for Gauge and Gravitational Theories in Minkowski Space 45:01
Xi Yin - Comments on BPS states in N=4 SYM 30:31
Pedro Vieira - Flux-Tube S-matrix and Spacetime S-matrix 30:29
Cumrun Vafa - M-strings 29:51
Joe Polchinski - Gauge/Gravity Duality and the Black Hole Interior 29:35
Nima Arkani-Hamed - Space-time, quantum mechanics and scattering amplitudes 1:08:32
Edward Witten - How supersymmetry is different 38:07
Sean Hartnoll - Recent progress at the holography/condensed matter interface 54:02
Robert Myers - RG Flows, Entanglement and Holography 1:00:08
Shiraz Minwalla - Chern Simons theories with fundamental matter and their bulk duals 1:00:54
Piljin Yi - Wall Crossing Redux 1:03:31
David Gross - Outlook (Strings 2013) 40:58
source: GraduatePhysics 2014年3月22日
Talks held at the Sogang University, June 24-29, 2013.
Event website: http://strings2013.sogang.ac.kr/
John Schwarz - Introduction (Strings 2013) 49:04
Sergei Gukov - 4d-2d correspondence 35:00
Matthias Gaberdiel - Large N=4 holography 29:13
David Berman - M-theory and extended geometry 33:52
Jeff Harvey - Summary (Strings 2013) 28:31
Michael Douglas - Thoughts on (2,0) theory 26:21
Daniel Harlow - On the Quantum Complexity of Hawking Radiation 29:50
Mirjam Cvetic - Global F-Theory Compactifications with Higher Rank Abelian Symmetries 34:15
Sungjay Lee - S2 Partition Function and Applications 22:58
Shamit Kachru - Calabi-Yau Avatars of Mathieu Moonshine 31:13
Romulad Janik - Fluid/gravity duality and hydrodynamics at its limits 28:23
Andrei Linde - Supeconformal Symmetry and Cosmological Attractors 28:38
Greg Landsberg - The LHC: Past, Present, and Future 32:31
Zohar Komargodski - Aspects of Supersymmetry on Curved Spaces 27:01
Seok Kim - The M5-brane superconformal index 29:24
Daniel Jafferis - Complex Chern-Simons from M5 branes on the squashed sphere 28:58
Gary Horowitz - General Relativity and the Cuprates 35:07
Guillaume Patanchon - Cosmological results from the Planck satellite 30:40
Sara Pasquetti - 3d&5d partition functions as q-CFT correlators 33:20
David Morrison - Gromov-Witten invariants without mirror symmetry 34:51
Gregory Moore - BPS News(Half)Hour 31:34
Jan Manschot - BPS bound states and quivers 26:29
Ashoke Sen - String theory at finite coupling 35:43
Eva Silverstein - New de Sitter solutions 24:33
Juan Maldacena - Wormholes and entangled states 36:22
Nathan Seiberg - Reading between the lines of 4d gauge theories 40:55
Slava Rychkov - Bootstrap approach to CFT in D dimensions 34:52
David Skinner - Twistor Strings for N=8 Supergravity 30:23
Tadashi Takayanagi - Holographic Entanglement Entropy of Excited States 27:18
Andrew Strominger - Asymptotic Symmetries for Gauge and Gravitational Theories in Minkowski Space 45:01
Xi Yin - Comments on BPS states in N=4 SYM 30:31
Pedro Vieira - Flux-Tube S-matrix and Spacetime S-matrix 30:29
Cumrun Vafa - M-strings 29:51
Joe Polchinski - Gauge/Gravity Duality and the Black Hole Interior 29:35
Nima Arkani-Hamed - Space-time, quantum mechanics and scattering amplitudes 1:08:32
Edward Witten - How supersymmetry is different 38:07
Sean Hartnoll - Recent progress at the holography/condensed matter interface 54:02
Robert Myers - RG Flows, Entanglement and Holography 1:00:08
Shiraz Minwalla - Chern Simons theories with fundamental matter and their bulk duals 1:00:54
Piljin Yi - Wall Crossing Redux 1:03:31
David Gross - Outlook (Strings 2013) 40:58
String-Math 2013 (University of Stony Brook)
# click the up-left corner to select videos from the playlist
source: GraduatePhysics 2014年10月14日
Talks held at University of Stony Brook, Jun 17-21, 2013.
Event website: http://scgp.stonybrook.edu/events/event-pages/string-math...
Marco Gualtieri - The Stokes groupoids 53:31
Slava Rychkov - Taking the equations of Conformal Field Theory seriously 56:56
Daniel Jafferis - Complex Chern-Simons theory from M5 branes on the squashed 3-sphere 37:30
Vasily Pestun - N=2 quiver gauge theories and quantum groups 44:25
Dominic Joyce - Quantization of 3-Calabi-Yau moduli spaces 54:01
Simon Donaldson - Progress in geometry on G_2 manifolds 53:35
Boris Pioline - Rankin-Selberg methods for closed string amplitudes 42:17
Peter Koroteev - 3d Quiver Gauge Theories and Integrability 29:46
Ludmil Katzarkov - Dynamical systems and categories 52:02
Kevin Costello - Integrable systems and supersymmetric gauge theory 53:36
Kenji Fukaya - Lagrangian Floer theory of arbitrary genus 51:49
Tadashi Okazaki - Supersymmetric Boundary Conditions in 3D N=2 Theories 20:48
[private video]
Marcel Vonk - Resurgence, transseries and nonperturbative physics 32:18
Tyler Kelly - Berglund-Hübsch-Krawitz Mirrors via Shioda Maps 19:51
Vincent Bouchard - Mirror symmetry for orbifold Hurwitz numbers 30:48
Nils Carqueville - Symmetry defects and equivariant completion 17:13
Tudor Dimofte - RG Domain Walls and Janus Attractors 25:09
Constantinos Papageorgakis - On instanton-soliton loops in 5D super-Yang-Mills 25:50
Daniel Pomerleano - SYZ mirror symmetry for toric Calabi-Yau varieties 27:45
Andrew Royston - Parameter counting for singular monopoles on R^3 28:25
Eduardo Gonzalez - Seidel elements, Mirror Transformations and potential Functions of DIsc counting 27:04
Anindya Dey - Three Dimensional Mirror Symmetry and Partition Functions on a Sphere 32:48
Theo Johnson-Freyd - Star quantization via lattice topological field theory 33:28
Alan Lai - Toward understanding the space of connections 29:52
Samuel Monnier - Global gravitational anomaly cancellation for five-branes 26:30
Christoph Keller - Constraints on 2d CFT partition functions 24:50
Peter Ozsvath - Bordered Floer homology and branched double-covers 54:24
Andreas Malmendier - New heterotic string vacua from pencils of genus-two curves 30:06
Miranda Cheng - Umbral Moonshine, String Theory, and Niemeier Lattices 1:00:05
Andrew Neitzke - Spectral networks in 2 and 3 dimensions 55:35
Lara Anderson - Geometric Constraints in Heterotic/F-theory Duality 30:30
Alexandru Oancea - Quantum string topology 28:48
James Gray - All Complete Intersection Calabi-Yau Four-Folds 26:59
Piotr Sulkowski - Matrix model for moduli spaces and chord diagrams 26:46
Chan Y. Park - 2d SCFT from M2-branes 26:09
Pavel Safronov - Virasoro constraints in Drinfeld-Sokolov hierarchies 19:14
Charles Strickland-Constables - Generalised Geometry of Supergravity 31:04
Jie Zhao - GMN construction of hyperkahler metric on focus-focus fibration 27:50
Callum Quigley - Heterotic Flux from (0,2) Gauge Dynamics 33:53
Marco Bertolini - Hybrid conformal field theories 20:49
Michael Kay - On the Quantization of Special Kaehler Manifolds 24:58
Calder Daenzer - Geometric T-dualization 35:19
Takahiro Nishinaka - Two-dimensional crystal melting and D4-D2-D0 on toric Calabi-Yau singularities 29:14
Alexander Goncharov - Configurations, potentials, components and canonical bases 54:29
Pierre Vanhove - Elliptic dilogarithms and two-loop amplitudes 58:18
Martijn Wijnholt - The Sen limit 48:52
Sakura Schafer-Nameki - F-theory and Singular Elliptic Fibrations 52:19
Tony Pantev - Refined parabolic stable pair invariants, nested Hilbert schemes, and MacDonald pols 46:51
Murad Alim - Polynomial Rings and Topological Strings 31:56
Mina Aganagic - Knots, Mirror Symmetry and the D-model 50:32
Mohammed Abouzaid - Symplectic Khovanov homology equals Khovanov homology in characteristic 0 52:53
Nikita Nekrasov - BPS/CFT, Bethe/Gauge,…a correspondence course 59:43
Eric Zaslow - Legendrian Knot Categories and BPS spaces 51:46
Sergei Gukov - The geometry and physics of color 58:47
Dan Freed - Orientifold worldsheet anomalies 59:11
source: GraduatePhysics 2014年10月14日
Talks held at University of Stony Brook, Jun 17-21, 2013.
Event website: http://scgp.stonybrook.edu/events/event-pages/string-math...
Marco Gualtieri - The Stokes groupoids 53:31
Slava Rychkov - Taking the equations of Conformal Field Theory seriously 56:56
Daniel Jafferis - Complex Chern-Simons theory from M5 branes on the squashed 3-sphere 37:30
Vasily Pestun - N=2 quiver gauge theories and quantum groups 44:25
Dominic Joyce - Quantization of 3-Calabi-Yau moduli spaces 54:01
Simon Donaldson - Progress in geometry on G_2 manifolds 53:35
Boris Pioline - Rankin-Selberg methods for closed string amplitudes 42:17
Peter Koroteev - 3d Quiver Gauge Theories and Integrability 29:46
Ludmil Katzarkov - Dynamical systems and categories 52:02
Kevin Costello - Integrable systems and supersymmetric gauge theory 53:36
Kenji Fukaya - Lagrangian Floer theory of arbitrary genus 51:49
Tadashi Okazaki - Supersymmetric Boundary Conditions in 3D N=2 Theories 20:48
[private video]
Marcel Vonk - Resurgence, transseries and nonperturbative physics 32:18
Tyler Kelly - Berglund-Hübsch-Krawitz Mirrors via Shioda Maps 19:51
Vincent Bouchard - Mirror symmetry for orbifold Hurwitz numbers 30:48
Nils Carqueville - Symmetry defects and equivariant completion 17:13
Tudor Dimofte - RG Domain Walls and Janus Attractors 25:09
Constantinos Papageorgakis - On instanton-soliton loops in 5D super-Yang-Mills 25:50
Daniel Pomerleano - SYZ mirror symmetry for toric Calabi-Yau varieties 27:45
Andrew Royston - Parameter counting for singular monopoles on R^3 28:25
Eduardo Gonzalez - Seidel elements, Mirror Transformations and potential Functions of DIsc counting 27:04
Anindya Dey - Three Dimensional Mirror Symmetry and Partition Functions on a Sphere 32:48
Theo Johnson-Freyd - Star quantization via lattice topological field theory 33:28
Alan Lai - Toward understanding the space of connections 29:52
Samuel Monnier - Global gravitational anomaly cancellation for five-branes 26:30
Christoph Keller - Constraints on 2d CFT partition functions 24:50
Peter Ozsvath - Bordered Floer homology and branched double-covers 54:24
Andreas Malmendier - New heterotic string vacua from pencils of genus-two curves 30:06
Miranda Cheng - Umbral Moonshine, String Theory, and Niemeier Lattices 1:00:05
Andrew Neitzke - Spectral networks in 2 and 3 dimensions 55:35
Lara Anderson - Geometric Constraints in Heterotic/F-theory Duality 30:30
Alexandru Oancea - Quantum string topology 28:48
James Gray - All Complete Intersection Calabi-Yau Four-Folds 26:59
Piotr Sulkowski - Matrix model for moduli spaces and chord diagrams 26:46
Chan Y. Park - 2d SCFT from M2-branes 26:09
Pavel Safronov - Virasoro constraints in Drinfeld-Sokolov hierarchies 19:14
Charles Strickland-Constables - Generalised Geometry of Supergravity 31:04
Jie Zhao - GMN construction of hyperkahler metric on focus-focus fibration 27:50
Callum Quigley - Heterotic Flux from (0,2) Gauge Dynamics 33:53
Marco Bertolini - Hybrid conformal field theories 20:49
Michael Kay - On the Quantization of Special Kaehler Manifolds 24:58
Calder Daenzer - Geometric T-dualization 35:19
Takahiro Nishinaka - Two-dimensional crystal melting and D4-D2-D0 on toric Calabi-Yau singularities 29:14
Alexander Goncharov - Configurations, potentials, components and canonical bases 54:29
Pierre Vanhove - Elliptic dilogarithms and two-loop amplitudes 58:18
Martijn Wijnholt - The Sen limit 48:52
Sakura Schafer-Nameki - F-theory and Singular Elliptic Fibrations 52:19
Tony Pantev - Refined parabolic stable pair invariants, nested Hilbert schemes, and MacDonald pols 46:51
Murad Alim - Polynomial Rings and Topological Strings 31:56
Mina Aganagic - Knots, Mirror Symmetry and the D-model 50:32
Mohammed Abouzaid - Symplectic Khovanov homology equals Khovanov homology in characteristic 0 52:53
Nikita Nekrasov - BPS/CFT, Bethe/Gauge,…a correspondence course 59:43
Eric Zaslow - Legendrian Knot Categories and BPS spaces 51:46
Sergei Gukov - The geometry and physics of color 58:47
Dan Freed - Orientifold worldsheet anomalies 59:11
Jerry Fodor Interview on Philosophy of Mind (Subtitles Available)
source: Philosophical Overdose 2015年6月12日
In this interview, philosopher and cognitive scientist Jerry Fodor discusses various approaches and issues in contemporary philosophy of mind. Among the topics, he discusses Noam Chomsky's attempt to try to dissolve the mind-body problem, functionalism/computationalism, David Hume's representationalist and associationist approach, physicalism/materialism, intentionality, the problem of consciousness, and the science of the mind.
Subtitles have now been added.
Public Economics by Raj Chetty (Fall 2012 at Harvard U)
# click the up-left corner to select videos from the playlist
source: tawkaw OpenCourseWare 2015年3月19日
Raj Chetty--Economics 2450A: Public Economics (Fall 2012 at Harvard U)
Topic 1 Introduction 57:19
Topic 2, Part 1 Tax Incidence 1:20:12
Topic 2, Part 2 Tax Incidence 1:17:24
Topic 2, Part 3 Tax Incidence 1:24:59
Topic 3, Part 1 Efficiency Cost of Taxation 1:06:53
Topic 3, Part 2 Efficiency Cost of Taxation 1:17:14
Topic 3, Part 3 Efficiency Cost of Taxation 1:13:40
Topic 4, Part 1 Optimal Taxation 1:20:49
Topic 4, Part 2 Optimal Taxation 1:15:20
Topic 4, Part 3 Optimal Taxation 55:27
Topic 5, Part 1 Income Taxation and Labor Supply 1:27:13
Topic 5, Part 2 Income Taxation and Labor Supply 1:15:20
Topic 5, Part 3 Income Taxation and Labor Supply 1:16:52
Topic 5, Part 4 Income Taxation and Labor Supply 59:15
Topic 5, Part 5 Income Taxation and Labor Supply 57:31
Topic 6, Part 1 Social Insurance 1:22:06
Topic 6, Part 2 Social Insurance 1:01:44
Topic 6, Part 3 Social Insurance 1:12:11
Topic 6, Part 4 Private Information and Adverse Selection Guest Lecture 1:21:01
Topic 6, Part 5 Social Insurance 58:47
Topic 6, Part 6 Social Insurance 1:20:26
Topic 7, Part 1 Public Goods and Externalities 59:11
Topic 7, Part 2 Public Goods and Externalities 1:05:12
Topic 7, Part 3 Public Goods and Externalities 1:15:28
Topic 8, Part 1 Corporate Taxation 27:19
Topic 8, Part 2 Corporate Taxation 1:17:50
Topic 8, Part 3 Corporate Taxation 1:15:22
Topic 8, Part 4 Corporate Taxation 34:20
source: tawkaw OpenCourseWare 2015年3月19日
Raj Chetty--Economics 2450A: Public Economics (Fall 2012 at Harvard U)
Topic 1 Introduction 57:19
Topic 2, Part 1 Tax Incidence 1:20:12
Topic 2, Part 2 Tax Incidence 1:17:24
Topic 2, Part 3 Tax Incidence 1:24:59
Topic 3, Part 1 Efficiency Cost of Taxation 1:06:53
Topic 3, Part 2 Efficiency Cost of Taxation 1:17:14
Topic 3, Part 3 Efficiency Cost of Taxation 1:13:40
Topic 4, Part 1 Optimal Taxation 1:20:49
Topic 4, Part 2 Optimal Taxation 1:15:20
Topic 4, Part 3 Optimal Taxation 55:27
Topic 5, Part 1 Income Taxation and Labor Supply 1:27:13
Topic 5, Part 2 Income Taxation and Labor Supply 1:15:20
Topic 5, Part 3 Income Taxation and Labor Supply 1:16:52
Topic 5, Part 4 Income Taxation and Labor Supply 59:15
Topic 5, Part 5 Income Taxation and Labor Supply 57:31
Topic 6, Part 1 Social Insurance 1:22:06
Topic 6, Part 2 Social Insurance 1:01:44
Topic 6, Part 3 Social Insurance 1:12:11
Topic 6, Part 4 Private Information and Adverse Selection Guest Lecture 1:21:01
Topic 6, Part 5 Social Insurance 58:47
Topic 6, Part 6 Social Insurance 1:20:26
Topic 7, Part 1 Public Goods and Externalities 59:11
Topic 7, Part 2 Public Goods and Externalities 1:05:12
Topic 7, Part 3 Public Goods and Externalities 1:15:28
Topic 8, Part 1 Corporate Taxation 27:19
Topic 8, Part 2 Corporate Taxation 1:17:50
Topic 8, Part 3 Corporate Taxation 1:15:22
Topic 8, Part 4 Corporate Taxation 34:20
R. Raman: Principles of Mechanical Measurements (IIT Madras)
# click the up-left corner to select videos from the playlist
source: nptelhrd 2008年9月18日
Mechanical - Principles of Mechanical Measurements by Prof. R. Raman, Department of Mechanical Engineering, IIT Madras.
Lecture - 1 41:56
Lecture - 2 50:56
Lecture - 3 45:26
Lecture - 4 48:50
Lecture - 5 51:43
Lecture - 6 49:01
Lecture - 7 52:04
Lecture - 8 48:47
Lecture - 9 47:50
Lecture - 10 50:06
Lecture - 11 49:53
Lecture - 12 51:31
Lecture - 13 52:15
Lecture - 14 44:47
Lecture - 15 51:20
Lecture - 16 48:05
Lecture -17 18:51
Lecture - 18 29:51
Lecture - 19 44:31
Lecture - 20 26:20
Lecture - 21 50:30
Lecture - 22 42:08
Lecture - 23 44:09
Lecture - 24 42:18
Lecture - 25 49:48
Lecture - 26 35:06
source: nptelhrd 2008年9月18日
Mechanical - Principles of Mechanical Measurements by Prof. R. Raman, Department of Mechanical Engineering, IIT Madras.
Lecture - 1 41:56
Lecture - 2 50:56
Lecture - 3 45:26
Lecture - 4 48:50
Lecture - 5 51:43
Lecture - 6 49:01
Lecture - 7 52:04
Lecture - 8 48:47
Lecture - 9 47:50
Lecture - 10 50:06
Lecture - 11 49:53
Lecture - 12 51:31
Lecture - 13 52:15
Lecture - 14 44:47
Lecture - 15 51:20
Lecture - 16 48:05
Lecture -17 18:51
Lecture - 18 29:51
Lecture - 19 44:31
Lecture - 20 26:20
Lecture - 21 50:30
Lecture - 22 42:08
Lecture - 23 44:09
Lecture - 24 42:18
Lecture - 25 49:48
Lecture - 26 35:06
Digital Systems Design by D. Roychoudhury (IIT Kharagpur)
# click the upper-left icon to select videos from the playlist
source: nptelhrd 2008年11月25日
Electronics - Digital Systems Design by Prof. D. Roychoudhury, Department of Computer Science and Engineering, IIT Kharagpur.
Lecture - 1 Introduction to Digital Systems Design 59:57
Lecture - 2 Introduction 59:55
Lecture - 3 Digital Logic - I 59:55
Lecture - 4 Digital Logic - II 59:56
Lecture - 5 Digital Logic - III 1:00:00
Lecture - 6 Boolean Algebra 59:56
Lecture - 7 Boolean Algebra 1:00:03
Lecture - 8 Boolean Function Minimization 59:56
Lecture - 9 Boolean Function Minimization 59:50
Lecture - 10 Boolean Function Minimization 59:58
Lecture - 11 Hazzard Covers by K - Map 59:55
Lecture - 12 Combinational Circuit Design 59:52
Lecture - 13 Design of ADDER Circuits 1:00:00
Lecture - 14 Design of Subtractor Circuits 1:00:05
Lecture - 15 Digital of Common Digital Elements 59:51
Lecture - 16 Design of Complex Combinational Circuits 1:00:03
Lecture - 17 Design of Combinational Circuits 59:56
Lecture - 18 Combinational Logic Problem Design 59:54
Lecture - 19 Combinational Logic Design 59:57
Lecture - 20 Logic Design with PLA 59:55
Lecture - 21 Synchronous Sequential Circuit Design 59:54
Lecture - 22 Design of Sequential Modules 59:56
Lecture - 23 Design of Registers and Counter 1:00:02
Lecture - 24 Finite State Machine Design 59:54
Lecture - 25 Finite State Machine Design and Optimization 59:59
Lecture - 26 Programmable Logic Devices 59:50
Lecture - 27 Programmable Logic Devices 59:57
Lecture - 28 Programmable Logic Devices 59:58
Lecture - 29 Design of Arithmetic Circuits 58:28
Lecture - 30 Design of Arithmetic Circuits 59:54
Lecture - 31 Design of Memory Circuits 1:00:02
Lecture - 32 Algorithmic State Machines Chart 59:55
Lecture - 33 Design of Computer Instruction Set and the CPU 59:55
Lecture - 34 Design of Computer Instruction Set and the CPU 1:00:02
Lecture - 35 Design of Computer Instruction Set and the CPU 1:00:02
Lecture - 36 Design of Computer Instruction Set and the CPU 1:00:00
Lecture - 37 Design of Computer Instruction Set and the CPU 59:55
Lecture - 38 Design of Computer Instruction Set and the CPU 59:58
Lecture - 39 Design of a Micro Programmed CPU 59:55
Lecture - 40 Digital System Design Current State of the Art 59:51
source: nptelhrd 2008年11月25日
Electronics - Digital Systems Design by Prof. D. Roychoudhury, Department of Computer Science and Engineering, IIT Kharagpur.
Lecture - 1 Introduction to Digital Systems Design 59:57
Lecture - 2 Introduction 59:55
Lecture - 3 Digital Logic - I 59:55
Lecture - 4 Digital Logic - II 59:56
Lecture - 5 Digital Logic - III 1:00:00
Lecture - 6 Boolean Algebra 59:56
Lecture - 7 Boolean Algebra 1:00:03
Lecture - 8 Boolean Function Minimization 59:56
Lecture - 9 Boolean Function Minimization 59:50
Lecture - 10 Boolean Function Minimization 59:58
Lecture - 11 Hazzard Covers by K - Map 59:55
Lecture - 12 Combinational Circuit Design 59:52
Lecture - 13 Design of ADDER Circuits 1:00:00
Lecture - 14 Design of Subtractor Circuits 1:00:05
Lecture - 15 Digital of Common Digital Elements 59:51
Lecture - 16 Design of Complex Combinational Circuits 1:00:03
Lecture - 17 Design of Combinational Circuits 59:56
Lecture - 18 Combinational Logic Problem Design 59:54
Lecture - 19 Combinational Logic Design 59:57
Lecture - 20 Logic Design with PLA 59:55
Lecture - 21 Synchronous Sequential Circuit Design 59:54
Lecture - 22 Design of Sequential Modules 59:56
Lecture - 23 Design of Registers and Counter 1:00:02
Lecture - 24 Finite State Machine Design 59:54
Lecture - 25 Finite State Machine Design and Optimization 59:59
Lecture - 26 Programmable Logic Devices 59:50
Lecture - 27 Programmable Logic Devices 59:57
Lecture - 28 Programmable Logic Devices 59:58
Lecture - 29 Design of Arithmetic Circuits 58:28
Lecture - 30 Design of Arithmetic Circuits 59:54
Lecture - 31 Design of Memory Circuits 1:00:02
Lecture - 32 Algorithmic State Machines Chart 59:55
Lecture - 33 Design of Computer Instruction Set and the CPU 59:55
Lecture - 34 Design of Computer Instruction Set and the CPU 1:00:02
Lecture - 35 Design of Computer Instruction Set and the CPU 1:00:02
Lecture - 36 Design of Computer Instruction Set and the CPU 1:00:00
Lecture - 37 Design of Computer Instruction Set and the CPU 59:55
Lecture - 38 Design of Computer Instruction Set and the CPU 59:58
Lecture - 39 Design of a Micro Programmed CPU 59:55
Lecture - 40 Digital System Design Current State of the Art 59:51
Electronics - Adaptive Signal Processing by M. Chakraborty (IIT Kharagpur)
# click the upper-left icon to select videos from the playlist
source: nptelhrd 2009年1月9日
Electronics - Adaptive Signal Processing by Prof. M. Chakraborty, Department of E and ECE, IIT Kharagpur.
Lecture - 1 Introduction to Adaptive Filters 53:57
Lecture - 2 Introduction to Stochastic Processes 59:47
Lecture - 3 Stochastic Processes 59:46
Lecture - 4 Correlation Structure 57:04
Lecture - 5 FIR Wiener Filter (Real) 57:42
Lecture - 6 Steepest Descent Technique 55:27
Lecture - 7 LMS Algorithm 55:30
Lecture - 8 Convergence Analysis 59:25
Lecture - 9 Convergence Analysis (Mean Square) 54:42
Lecture - 10 Convergence Analysis (Mean Square) 53:24
Lecture - 11 Misadjustment and Excess MSE 56:13
Lecture - 12 Misadjustment and Excess MSE 56:47
Lecture - 13 Sign LMS Algorithm 54:45
Lecture - 14 Block LMS Algorithm 54:17
Lecture - 15 Fast Implementation of Block LMS Algorithm 1:00:49
Lecture - 16 Fast Implementation of Block LMS Algorithm 54:43
Lecture - 17 Vector Space Treatment to Random Variables 51:48
Lecture - 18 Vector Space Treatment to Random Variables 1:00:14
Lecture - 19 Orthogonalization and Orthogonal Projection 55:48
Lecture - 20 Orthogonal Decomposition of Signal Subspaces 54:59
Lecture - 21 Introduction to Linear Prediction 58:30
Lecture - 22 Lattice Filter 54:16
Lecture - 23 Lattice Recursions 55:41
Lecture - 24 Lattice as Optimal Filter 52:57
Lecture - 25 Linear Prediction and Autoregressive Modeling 55:57
Lecture - 26 Gradient Adaptive Lattice 51:51
Lecture - 27 Gradient Adaptive Lattice 56:20
Lecture - 28 Introduction to Recursive Least Squares 55:21
Lecture - 29 RLS Approach to Adaptive Filters 56:14
Lecture - 30 RLS Adaptive Lattice 1:01:43
Lecture - 31 RLS Lattice Recursions 54:40
Lecture - 32 RLS Lattice Recursions 55:16
Lecture - 33 RLS Lattice Algorithm 56:02
Lecture - 34 RLS Using QR Decomposition 59:52
Lecture - 35 Givens Rotation 1:00:16
Lecture - 36 Givens Rotation and QR Decomposition 59:48
Lecture - 37 Systolic Implementation 56:34
Lecture - 38 Systolic Implementation 48:52
Lecture - 39 Singular Value Decomposition 57:01
Lecture - 40 Singular Value Decomposition 55:49
Lecture - 41 Singular Value Decomposition 59:44
source: nptelhrd 2009年1月9日
Electronics - Adaptive Signal Processing by Prof. M. Chakraborty, Department of E and ECE, IIT Kharagpur.
Lecture - 1 Introduction to Adaptive Filters 53:57
Lecture - 2 Introduction to Stochastic Processes 59:47
Lecture - 3 Stochastic Processes 59:46
Lecture - 4 Correlation Structure 57:04
Lecture - 5 FIR Wiener Filter (Real) 57:42
Lecture - 6 Steepest Descent Technique 55:27
Lecture - 7 LMS Algorithm 55:30
Lecture - 8 Convergence Analysis 59:25
Lecture - 9 Convergence Analysis (Mean Square) 54:42
Lecture - 10 Convergence Analysis (Mean Square) 53:24
Lecture - 11 Misadjustment and Excess MSE 56:13
Lecture - 12 Misadjustment and Excess MSE 56:47
Lecture - 13 Sign LMS Algorithm 54:45
Lecture - 14 Block LMS Algorithm 54:17
Lecture - 15 Fast Implementation of Block LMS Algorithm 1:00:49
Lecture - 16 Fast Implementation of Block LMS Algorithm 54:43
Lecture - 17 Vector Space Treatment to Random Variables 51:48
Lecture - 18 Vector Space Treatment to Random Variables 1:00:14
Lecture - 19 Orthogonalization and Orthogonal Projection 55:48
Lecture - 20 Orthogonal Decomposition of Signal Subspaces 54:59
Lecture - 21 Introduction to Linear Prediction 58:30
Lecture - 22 Lattice Filter 54:16
Lecture - 23 Lattice Recursions 55:41
Lecture - 24 Lattice as Optimal Filter 52:57
Lecture - 25 Linear Prediction and Autoregressive Modeling 55:57
Lecture - 26 Gradient Adaptive Lattice 51:51
Lecture - 27 Gradient Adaptive Lattice 56:20
Lecture - 28 Introduction to Recursive Least Squares 55:21
Lecture - 29 RLS Approach to Adaptive Filters 56:14
Lecture - 30 RLS Adaptive Lattice 1:01:43
Lecture - 31 RLS Lattice Recursions 54:40
Lecture - 32 RLS Lattice Recursions 55:16
Lecture - 33 RLS Lattice Algorithm 56:02
Lecture - 34 RLS Using QR Decomposition 59:52
Lecture - 35 Givens Rotation 1:00:16
Lecture - 36 Givens Rotation and QR Decomposition 59:48
Lecture - 37 Systolic Implementation 56:34
Lecture - 38 Systolic Implementation 48:52
Lecture - 39 Singular Value Decomposition 57:01
Lecture - 40 Singular Value Decomposition 55:49
Lecture - 41 Singular Value Decomposition 59:44
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